Monday, June 3, 2019
Disease Caused by Parasite of Genus Trypanosoma
Disease Caused by Parasite of Genus Trypanosoma gay trypanosomiasis driving forced by Trypanosoma evansi and Trypanosoma lewisi in India A matter of concernIntroductionDisease produced by the parasite of genus Trypanosoma c each(prenominal)ed as trypanosomiasis. It is one(a) of the close to important hemoprotozoan ailments, widely distri onlyed in wolfs and tender-hearted beings. It is endemic in Africa and America, be deadly pathogens that threaten cardinals of people in at to the pocket-sizeest degree 36 attendries in Africa. It is estimated that approximately 60 million people ar at risk and 3, 00,000 raw cases prepare every year in Africa (WHO taradiddle 1998). Both African and American trypanosomes rank inside the top 10 in terms of global impact. Despite the impact of these parasites, how they cause disease is comparatively less is understood. In Africa, the disease is commonly cognize as tender African trypanosomiasis (HAT) or sleeping nausea whereas the Am erican trypanosomiasis recognized as Chagas disease. They non only infect verteb esteems groups (amphibians, reptiles, birds, fish, and mammals) but as well many an(prenominal) invertebrates (Crithidia, Leptomonas). Human African trypanosomiasis belongs to genus Trypanosoma, subgenus trypanozoon. Classification phylum sacromastigophora, order kinetoplastida and the family trypanosomatidae. Genus Trypanosoma includes subgenus which is divided into major(ip) group, salivaria and stercoraria that infect vertebrates (Hoare C. A.1964). Trypanozoon (T. brucei ssp, T. evansi, T. equiperdum), Duttonella (T. vivax,T. uni course of actione), Nannomonas (T. congolense, T. simiae), Pycnomonas (T. suis), Tejeraia (T. rangeli) belongs to salivaria group. Under stercoraria group Herpetosoma (T. lewisi, T. musculi,T. microti), Megatrypanum (T. theileri, T. melophagium), Schizotryponum (T. cruzi, T. dionisii) come. T. brucei. brucei, T. brucei. gambiense and T. brucei. rhodesiense are the subspe cies of the Trypanozoon. Sleeping sickness is caused by T. brucei. gambiense, a chronic form of HAT in West and Central Africa lasting from months to years or T. brucei. rhodesiense, an cunning form of HAT in East and Confederate African with a duration of weeks to months. Whereas, closely related parasite T. brucei. brucei is non pathogenic to human. The American trypanosomiasis is caused by T. cruzi. rhodesiense. These forms of the disease is deadly and develop within weeks to months, the gambiense form takes year.Trypanosomes cause animal trypanosomiasis has a wide geographic distribution. Surra is caused by T. evansi and infects mainly camels, cows, buffalos, horses, deer and other wild animals. T. b. Brucei causes nagana in tropical Africa and affects only cattle T. vivax and T. congolense infect interior(prenominal) and sm solely animals plot of ground T.lewisi is a commensally of rats. T. equiperdum causes dourine disease in horse and donkey of India, Europe, America a nd northeastward Africa. African trypanosomes are transmitted by tsetse fly wing, a species of Glossina, and South American trypanosomes by reduvid bugs.Normally human are resistant to animal species of Trypanosoma repayable to the trypanolytic factor of human blood serum. However, there are some(prenominal) cases of human infection with animal trypanosomes such as Trypanosoma evansi Trypanosoma lewisi and Trypanosoma congolense have been discussed later in this article. This proves non yet a out of date cases but the beginning of reinvigorated era in the history of human trypanosomes, put in dilemma whether they develop effectiveness of new diseases of humans or just a biological accidently transmitting.In Asia, commencement documented evidence found in 1933, human trypanosomiasis in Malaysia, a foursome month aging infant septic with T. lewisi (Johnson P. D, 1933). posterior in 1974 K. Shrivastava and colleague overcompensate T. lewisi- deal Herpetosoma infectio n, diagnosed in both adult patients in India during malaria eradication program. All deuce-ace human Herpetosoma infected patients were recovered without discourse. More belatedly the cases of a two-month-old infant in the Gambia (Howie, S. et al., 2006) and India (Kaur, R. et al., 2007) infected with T. lewisi-like trypanosome is account but Gambian case has invasion of aboriginal nervous system. One more case in Thailand is report Trypanosoma lewisi-like infected 45-day-old male infant was recovered with the treatment of antibiotic gentamicin (Sarataphan, N. et al., 2007). Suspected case, 40 aged female in State of western Bengal of India, infected with trypanosomiasis in January 2005 notwithstanding T. evansi was concluded by considering only the fact, species isolated from these area is T. evansi in cattle, buffaloes, and goats (see Ref. contact of the Ad Hoc Group of the World Organization for living organism Health (OIE), Paris 2006).Animal trypanosomiasis Trypanosom a evansi caused to human in India, state of Maharashtra.The patient was 45 year old man and veterinary quack from Seoni village in Taluka Shindevahi of District Chandrapur from Maharashtra State. He was admitted to rural hospital initially symptoms observed were headache, intermittent fever, disoriented, sensory scarcity, saliva deteriorate from mouth and violent behaviour. Blood thick smear, dye by Fields stain, examination was through with(p) by local microbiologist Mrs. Bharti U Sable she suspects trypanosome on with plasmodium falciparum (figure 01). He was treated with antimalarial drug on with oral hematenics. She marked as the founder of Indian trypanosome, T. evansi. Later patient was transferred to the Government Medical College and hospital (GMC) in Nagpur, India. Stained blood smear shows legion(predicate) flagellated trypanosomes parasite only, was confirmed morphologically, position of nucleus and small kinetoplast at central and posterior independently indicate that the contributory mediator was T. evansi (Joshi, PP. et al., 2005). Another extraordinary character of T. evansi has homogenous deoxyribonucleic window pane minicircles (Borst et al., 1987 Songa et al., 1990 Masiga and Gibson, 1990 Lun et al., 1992) and absence of deoxyribonucleic acid maxicircles in the kinetoplast unlike T. brucei (Borst et al., 1987 Songa et al., 1990). Several methods has been evolvedmicroscopy, card agglutinating natural action shew (C. Gutierrez et. al., 2000), microhematocrit centrifugation technique (Woo, PTK 1970), enzyme- link immunosorbent hear (Indrakamhang, P et al.1996), desoxyribonucleic acid hybridization (Viseshakul, N., Panyim, S., 1990) and polymerase chain reaction (Wuyts, N.et.al. 1994 Wuyts, N.et al.1995 Omawa, S et al 1999) for staining of T. evansi infection. To confirm morphological identification of parasite, additive rise of blood, serum and cerebrospinal fluid (CSF) was done in the section of Microbiology, Government Med ical College and Hospital, Nagpur and at the Institut de Recherche pour le Dveloppement in Montpellier, France.Parasitological and serological demonstrates conducted at GMC, Nagpur, are as followed (Joshi, PP. et al., 2005)biochemical quantitative epitome of serum was performed with less tiny significance on lipid levels, indication of lemonlike disease. Tangier disease is a rare autosomal recessive factortic disorder, high density lipoprotein deficiencies associated with this disease include dramatically lowered level of APO A1 (Von Eckardstein, A., et al., 1998), was found to be non trypanolytic (Rifkin, M R. 1978a), however controversial data, immaterial sera of a patient with Tangier disease is trypanolytic exhibiting twoTLF-1 and TLF-2 activity, reported (Tomlinson et al., 1995).The demonstration of specific antibodies has been employed by victimisation card agglutination test for trypanosomiasis (CATT) for T. evansi using altogether blood and serum was conducted. CATT test initially developed for T. brucei. gambiense (Diall et al., 1994). Sensitivity of CATT for T. evansi in Kenya was 65.5% (Z.K. Njiru et al.2004) and 68.6% (Ngaira et al.2003).False positivistic result of CATT was reported (Stijn Deborggraeve et al.2008).Mini-anion centrifugation technique is used for purification and concentration of trypanosomes using heparinised blood before and after treatment of suraminA show latex IgM agglutination test was conducted with CSF to reveal functionless of parasite in the blood mindset barrier.Sediment of CSF after centrifugation was examined by bright field microscopy for the presence of trypanosomes. Thomas chamber is used to count lymphocytes in the CSF, presence demonstrate the incursion of parasite. molecular technique and serological tests conducted at the Institut de Recherche pour le Dveloppement in Montpellier, France, are as followed (Joshi, PP. et al., 2005).Three independent PCR tab were performed using deoxyribonucleic acid of trypanosomeRelated to the subgenus Trypanozoon using a seminested PCR method, primer used ITS1/2 stupidd on internal get down spacer (ITS) of ribosomal DNA.Related to T.brucei group using a unmarried PCR of the 177- basepair.Amplification of T. evansi was conducted using a 994- basepair mitochondrial kinetoplast minicircle template with the primer TEV 1/2.Reference strains used are T. b.gambiense toss 6118 and T. evansi CIRDES.PCR provided high specificity and sensitivity molecular biology technique among others for diagnosing of infectious diseases and as well permits identification of micro organisms such as mycobacterium (Garcia-Quintanilla, A et al., 2002) , detection and differentiation of Entamoeba histolytica and Entamoeba dispar (Gonin, P et. al.,2003), simultaneous detection of tick-borne hemoprotozoan parasites Babesia caballi and Babesia equi in horse blood (Alhassan, A. et. al., 2005) and detection of influenza A Virus (Nicole L. Z et. al, 2006). In spite of these, PCR are not usual in some countries (Holland et al., 2001). It has been reported about reproducibility problems, for diagnosis of both(prenominal) human and animal trypanosomes, of PCR results (Solano et al., 2002 Malele et al., 2003). Recently a new DNA amplification method, loop-mediated isothermal amplification developed for diagnosis of species and sub-species specific trypanosomes (Thekisoe OM et al., 2007).Disease developed due to absence of trypanolytic factor in figure human serum hence immune status of patient was check up on to resolve possible infection with human immunodeficiency virus (human immunodeficiency virus).Three tests were conducted to corroborate the results of Enzyme-linked immunosorbent assay (ELISA) in India.HIV 1/2 assaySpecific enzyme-linked immunosorbent assay (ELISA)NNO-LIA HIV 1/2 Score testInvestigation of parasiteUnusual transmission of animal trypanosomiasis, T. evansi to human requires rationalization, for this P. Truc and collaborator, 2007 s tudied transmittable characterization of T. evansi. Generally, genetic variability of T. evansi has been detected by using isoenzyme (Gibson et al., 1983 Stevens et al., 1989), emitriction fragment length polymorphism (RFLP) (Songa et al., 1990), microsatellite (Biteau et al., 2000) and random amplified polymorphic DNA (RAPD) analysis (Lun et al., 2004 Ventura et al., 2002) all these above technique found isolated T. evansi were genetically homogenous. Micro heterogeneity reported (Gibson et al., 1983 Stevens et al., 1989), may due to low-resolution techniques and no genetic exchange of T. evansi in vector like others T. brucei ssp, that jumper leads to absence of recombination which play billet for micro heterogeneity (Jenni et al.1986). save, some genetic variability of isolated T. evansi from Kenya reported done PCR (Ngaira et al.2004, 2005 Njiru et al.2006) and amplified fragment length polymorphism (AFLP) along with RAPD. Among later, AFLP admittance more polymorphisms, wa s able to differentiate and separate the Type A T. evansi into two clades (Masiga et al., 2006). Direct proportion of high-resolution molecular techniques microsatellites or simple chronological sequence repeats (SSR) and Inter-simple sequence repeats (ISSR) PCR revealed that latter technique demonstrate greater genetic variability of T evansi isolates from different geographical area (Z.K. Njiru et al 2007). Recently molecular analysis of T. b. brucei by PCR and microsatellite PCR of reported blood slides was success totaly conducted (Stijn Deborggraeve et al.2008). Isolated T. evansi has been termed into quality A and case B (Masiga and Gibson, 1990). different to type B detected only from Kenya, isolates type A are most copious (Borst et al., 1987). It has been shown however, that most of T. evansi from South America are dyskinetoplastic- lacking both maxicircles and minicircles (Masiga and Gibson, 1990 Ventura et al., 2000 Schnaufer et al., 2002).Normally T. evansi diagnose d through variant surface glycoprotein (VSG) Rode Trypanozoon antigen type (RoTat) 1.2, a diagnostic antigen. Songa and Hamers, 1988 developed CATT for veterinary use, which based on RoTat 1.2 gene (Songa and Hamers, 1988). Both PCR test and serological-CATT test are highly sensitive and specific in divergent geographical region (Verloo et al., 2000), former test can be trustworthy for detection of isolates of both dyskinetoplastic and DNA minicircles in kinetoplast of T. evansi (Claes et al., 2004) also it based on RoTat 1.2 gene (Urakawa et al., 2001). On the other hand, most of T. evansi from Kenya were not detected by test, which based on VSG of T. evansi RoTat 1.2 gene because few isolates lack both RoTat 1.2 gene and their linked protein-VSG charm other isolates having only RoTat 1.2 gene (Ngaira et al. 2004). Characterization of non-RoTat 1.2 T. evansi, specific PCR test developed in these 273 base pair was present in disparity to RoTat 1.2 T. evansi (J.M. Ngaira et al., 2 005).microscopical examination of dissected organs of tsetse flies was done for identification of trypanosome infections (Lloyd and Johnson, 1924). Parasites are, generally indentified in the mouthparts, salivary glands and mid-guts. Trypanosome species from vector is isolated and employed in isoenzyme cataphoresis technique for identifications (Gashumba et al., 1986). Another approach as recombinant DNA probes have been used for the identification both fledged and immature trypanosomes in tsetse fly (Gibson et al., 1988 Majiwa et al., 1993).Dot-ELISA is another(prenominal) technique used for detecting trypanosomes in tsetse flies (Bosompem et al., 1996 Ouma, J. O et al., 2000)How T. evansi differs from other TrypanozoonThe subgenus Trypanozoon includes three species, videlicet Trypanosoma brucei, T. evansi and T. equiperdum. T. evansi is judge against, concerning their morphological, mode of transmission, biochemical and molecular symptomatics, rest of species. Bloodstream stag es of these three parasites are often morphologically indistinguishable (Brun R et al., 1998 Gibson, 2003). T. evansi is automatically transmitted of infected blood through insects of the genera Tabanus, Stomoxys, Atylotus and Lyperosia. Horseflies (Tabanus spp), Stableflies (Stomoxys spp) are the most exposed vectors for the transmission of T. evansi in Indonesia and China (Luckins, 1988 Lun et al., 1993). In Africa, south and Central America, tsetse fly (Glossina spp) and vampire wrong(p) Desmodus rotundus an extra host-vector-reservoir of the T. evansi, respectively can mechanically transmitted this parasite. Direct transmissions through milk or during coitus involved T. evansi (Wang, 1988). Besides mechanical and direct transmission of T. evansi, T. equiperdum transmitted directly during coitus and with rare possibility through bloodsucking insects (see ref. Brun, R et al.,1998). Trypanosoma brucei gambiense, sleeping sickness parasites have been able to spread through tsetse flies of palpalis group (Glossina palpalis, Glossina tachinoides) while T. b. rhodesiense was generally transmitted by tsetse of the morsitans group (Glossina morsitans, Glossina pallidipes). All 31 species of tsetse flies are able to transmit trypanosomes (Aksoy S, et al., 2003). Other major parasites T. congolense, T. vivax and T. simiae that are pathogens of domesticated animals, transmitted by tsetse fly.Both parasites, T. evansi and T. equiperdum are closely related to T. brucei, most likely developed from Trypanosoma brucei by independently omission of kinetoplast DNA and should be regarded as two subspecies Trypanosoma brucei evansi and Trypanosoma brucei equiperdum respectively (Lai et al., 2008). Absence of maxicircles in kinetoplast DNA explained inexistence of procyclic or insect stage in these parasites and can circularize only as the mammal-infective bloodstream form (Borst et al., 1987).This facilitate to explain wide range of mechanical transmission of T. evansi ou tside of Africa (Lun and Desser, 1995). Procyclic form (PCF) T.brucei strain cannot survival with a partial or complete loss of kinetoplast DNA as with some Blood stream form (BSF) strains. This kinetoplast DNA deficient T.brucei strains appear naturally or induced by drugs (Schnaufer A et al.2002). Drug inducers are acriflavine, ethidium bromide, methoxy-9-ellipticine, hydroxystilbamidine, berenil, pentamidine, antrycide, and para-rosaniline, grouped as DNA intercalators and non intercalating drugs (Hajduk, 1978).Nevertheless, the existence of T. equiperdum has been complexity Claes et al. suggested that, in fact, some strains of Trypanosoma equiperdum are actually Trypanosoma brucei and all other remaining misidentified strains such as Swiss Tropical Institute Basel (STIB) 818 are Trypanosoma evansi. However, based on PCR amplification of the fragment of DNA maxicircles in the kinetoplast, T. equiperdum Onderstepoort veterinary Institute (OVI) and Bordeaux Trypanosoma antigen ty pe (BoTat) 1.1 strains are T. brucei and other STIB 818, STIB 841 and STIB 842 T. equiperdum strains are not cluster together with T. evansi as it maintains maxicircles and allied genes. (Li et al., 2006).Both parasites have homogeneous minicircles. Although in all T. evansi strains maxicircles are totally lost but T. equiperdum shows more assortment, some strains seems to bear complete maxicircles with no vigorous indispensable gene others are missing one of the genes and a few bare the entire maxicircles (Lai et al., 2008).Unlike other DNA, T. brucei mitochondrial DNA termed kinetoplast DNA include a network of interlocked DNA rings (Liu, B. et al. 2005). This network of T. brucei ssp. comprised of some(prenominal) thousands of heterogeneous minicircles and several dozen of homogeneous maxicircles (Borst and Hoeijmakers, 1979). T. evansi has largely homogenous and limited heterogeneous minicircles in kinetoplast DNA (Borst et al., 1987).Results (Joshi, PP. et al., 2005 P. Tru c et al., 2007)A careful examination of morphological characteristic demonstrates the presence of T. evansi. Patient had normal level of APO A-1 indicate no sign of Tangier disease. The result of CATT for T. evansi was positive suspect stalwartly presence of RoTat 1.2 gene. Latex IgM test, a diagnostic for trypanosome invasion in CSF, and lymphocytes count in the CSF indicated no invasion of parasite. An attempt to isolate and dole out trypanosome in wistar rat was failed. For molecular diagnosis of T. evansi PCR conducted, test was positive. Results of ELISAs for HIV, conducted in France and India were negative.Genetic characterization, Indian patient has homogenous DNA minicircles in kinetoplast of T. evansi of type A and devoid of SRA gene.TreatmentTreatment was started 109 days after initial admission to hospital using suramin. Suramin is manufactured by Bayer and donated to WHO as Germanin, used against sleeping sickness in 1922 (Voogd et al., 1993). Suramin was used as a fir stly stage of treatment for HAT caused by Trypanosoma brucei gambiense (chronic form) or T. b. rhodesiense (acute form). Efficacy of suramin against T. evansi infection was studied in cattle by Gill BS, Mal bitterra MN, 1963. It was requested and provided by Department of Public Health, Government of Maharashtra State, India and World Health Organisation respectively. As patient falls under first stage of infection, drugs have to be used pentamidine or suramin sodium. Pentamidine has more adverse effect than suramin, according to author hence suramin was used in this patient. Drug suramin acts by interfering with enzyme of glycolytic alley (Wierenga RK, et.al., 1987) in trypanosomes and produce hot spot, function as a signal for import into glycosome. It is preferred to give slow intravenous shaft as suramin is poorly absorbed from intestine and causes blood-and-guts local irritation when given intramuscularly (Voogd TE, et.al., 1993). Suramin does not cross the blood-brain barri er to kill trypanosome in the CSF however able to cure model of stage 2 diseases at a high dose greater than 80 mg per kg (Jennings FW, et.al., 1995).Follow-up mull was commenced after the end of treatment and at third and 6th months, all previous tests-CATT for T. evansi, latex IgM agglutination test, Mini anion-exchange centrifugation technique and examination of CSF by bright field microscopy are repeated at GMC Nagpur excepts biochemical analysis of serum for Tangier disease (P. P. Joshi et al. 2006). Tests result indicates first patient of human trypanosomiasis infected with T. evansi was recovered, Joshi and collaborators concluded that same schedule would follow in treatment if more cases observed.SuraminSuramin is less active against procyclic form of trypanosomes than bloodstream form, former normally reside in the tsetse flies (Scott AG, et.al., 1996). Suramin inhibit number of glycolytic enzyme which is inwrought to bloodstream form rather than procyclic form (Fairlamb AH, et.al., 1977, Fairlamb AH, et.al., 1980). Hanau and colleagues proposed other likely target of drug, competitive inhibitor of an enzyme 6-phosphogluconate dehydrogenase of pentose phosphate pathway (Hanau S, et.al., 1996). Suramin is an effective microfilaricide for Onchocerca spp. and Brugia pahangi worms (Hawking, et al., 1981 Howells, et al., 1983). It is a known ATP/UTP purine sense organ (P2 receptor) antagonist (V. Ralevic and G. Burnstock, 1998). Nevertheless suramin inhibit ample varieties of enzymes like reverse transcriptase, dihydrofolate reductase, furamse, glycerol-3-phosphate dehydrogenase, hexokinase, L-a-glycerophosphate oxidase, receptor mediated phthisis of low density lipoprotein, RNA polymerase and kinases, thymidine kinase, trypsin (Pepin and Milord, 1994 Wang, 1995). Besides its trypanocidal activity, suramin is also useful in hormone-refractory prostate cancer, however survival rate was not affected (Small et al., 2000 Ahles et al., 2004). Suramins antitu mor activity has been attributed to its inhibition of various out harvest-time factors which include platelet-derived growth factor, fibroblast growth factor, transforming growth factors alpha and beta, insulin- like growth factors 1(Stein CA,1993). Osteosarcoma is the malignant tumor of the bone suramin exerts an repressive effect on osteosarcoma cadre growth of established cell lines (Benini et al., 1999), newly established osteosarcoma cell lines and stimulation of osteosarcoma cells by physiological compounds, such as 1, 25-dihydroxy-Vitamin D3 (K. Trieb, H. Blahovec, 2002). Furthermore, results in an inhibiting capacity of suramin on various cell functions include production of alkaline-phosphatase or telomerase activity (K. Trieb, H. Blahovec, 2002). Suramin blocked CD154 (Emilio Margolles-Clark et al., 2009) from interacting with its receptor CD40 (U. Schnbeck and P. Libby, 2001 I.S. Grewal and R.A. Flavell, 1998), costimulatory interactions are therapeutically important t o modulate immune responses (C.P. Larsen et al., 2006 F. Vincenti and M. Luggen, 2007). Suramin inhibited the bind of TNF-a to its receptor TNF-R1 (F. Mancini et al., 1999) and its ability to inhibit CD40-CD154 interaction was 30 fold more active compared to it (Emilio Margolles-Clark et al., 2009). Suramin has also been shown to capture T cell activity (C. Schiller et al., 1994), antiproliferative effects on lymphoid cells (Z. Spigelman et al., 1987). Suramin can causes poisonousities which include adrenal and renal insufficiency, coagulation factor abnormalities and poly-neuropathy (T.E. Voogd et al., 1993 D.J. Cole et al., 1994), at relatively high concentration inhibited the hold fast of IL2 to its cell surface receptor (G.B. Mills et al.,1990), greater than therapeutic use (S.A. Grossman et al., 2001 S.T. Eichhorst et al., 2004). It concentration-dependently inhibited proteolytic and phospholipase A2 (PLA2) activities of Bothrops jararacussu venom- potential to be used as a ntivenom, suramin also antagonise the cardiotoxic effect of Bothrops jararacussu venom in rats heart (Daniel N. Sifuentes et al., 2008).Uptake of suramin by bloodstream form of trypanosome is through receptor mediated endocytosis which is most likely passageway of entry (Fairlamb AH, et al., 1980). Suramin intensively beach to plasma proteins such as low density lipoproteins, albumins, globulins, fibrinogen, etc. consort to Bastin et al. 1996, Coppens and Courtoy 2000 and Green et.al 2003 suggested that suramin might enter while bound to low density lipoprotein (LDL), it has high kinship to bind many serum proteins including LDL (Vansterkenburg ELM, et al., 1993). The high rate of fluid-phase endocytosis occurs in the trypanosomes of bloodstream form (Engstler, et al., 2004). This mechanism could be involved in the uptake of suramin into T. brucei that does not require specialized receptors. Trypanosomes cannot synthesise their own fatty acid and cholesterol de novo hence LDL u ptake is essential for propagation (Coppens I, et al., 2000). It does not make any worse however in procyclic form, uptake of suramin is through receptor mediated endocytosis and not coupled with LDL uptake (Pal A, et al., 2002). Suramin involves inhibition of various glycolytic enzymes, effects rates of respiration as aerobic glycolysis is closely related with it in bloodstream forms (Fairlamb AH, et al., 1980, Opperdoes, F.R. et al., 1989). Diminished growth rate of trypanosome in vivo is a consequence of decrease in respiration (Fairlamb AH, et al., 1980).Suramin is also used as veterinary trypanocide report on resistor in T. evansi that infects animals is reported (El Rayah et al., 1999, Zhou, J.L. et al., 2004). near cases have been described of drug resistance when suramin is used against Trypanosoma brucei rhodesiense in humans (Wery, M., 1994). Suramin reduced sensitivity towards T. b. rhodesiense (Bacchi et al., 1990) and calamity of treatment up to 25-30% observed (Pepi n and Milord, 1994, Burri, C et al., 2004). Failures of treatment are common due to misdiagnosed late stage infection (Burri et al., 2004). De Koning argued one of the argues of suramin resistance is associated with reduction in drug uptake molecule is large and highly charged which plasma membrane transporter takes up.Role of apolipoprotein L-1 and haptoglobin-related proteinT. evansi affects mainly domesticated animals such as camels, cattle and water buffalo, spread by mechanical transmission of infected blood through insect such as tabanid flies. Due to these, it spread apart from sub-Saharan Africa to South America, North America and Asia. Normally humans are resistant to animal trypanosomes, immunity against T.brucei brucei is due to trypanolytic activity of an apolipoprotein L-1 (APOL-1) bound to high density lipoprotein (HDL) (Vanhamme L. et al., 2003). previously it was concluded that trypanolytic activity in normal human serum was due to immunoglobin M (Aaronovitch, S. T erry, R. J. 1972). Later in 1973, Hawking and colleagues resolute there were two trypanolyic factors. These two factors differ in their activity (in vivo and vitro), molecular mass, quantity in serum and sensitivity to antagonists (Hawking et al., 1973b). HDL was identified as trypanolyic factor by Rifkin in 1978, she also characterised the two trypanolyic factors determined by Hawking (Rifkin, M. R. 1978b). Trypanolyic factors in human serum shows inhomogeneous properties (Tomlinson et al., 1995 Raper et al., 1996b). Both TLF are a subset of HDLs commonly referred to as HDL3 (Lorenz et al., 1995), retrovert haptoglobin-related protein (Hpr) (Smith et al., 1995) and APOL-1 (Vanhamme, L. et al., 2003).TLF-1 is a 500 kDa lipid rich while TLF-2,1000 kDa protein complex containing IgM, lipid poor HDL particle (Raper, J. et al., 1999 Lugli, E.B. et al., 2004). Apolipoprotein A-1 (APOA-1) is a component of TLF-1(Smith et al., 1995) and, although previously reported that APOA-1 could not detected in TLF-2(Tomlinson, S. et al., 1995), is a component of TLF-2 (Raper, J. et al., 1999). antecedently unknown proteins, human cathelicidin antimicrobial peptide (hCAP18), glycosylphosphatidylinositol-specific phospholipase D (GPI-PLD) and paraoxonase are associated with TLF-1(Smith AB et al., 1995 Lugil E et al., 2004). APOA-1 suggests a role in trypanolysis later controversial report supporting a lytic role (Gillett, M. Owen, J. 1992a) or not favor lytic role (Rifkin, 1991 Seed et al., 1993). Later it was confirmed that APOA-1 was not toxic (Tytler, 1995) but may indirectly play role of trypanolytic (Owen et al., 1996).For trypanosomes, HDLs contain 16,000-65,000 binding site per cell having moderate affinity (Gillett, M. Owen, J. 1992b). However, binding of lytic factor, TLF-1 appeared to involve two binding site, low affinity have 65,000 and high affinity 350 binding sites (Drain et al., 2001). Host macromolecules, interact with bloodstream trypanosomes, transferrin (B orst, P.1991) and low-density lipoprotein (LDL) (Coppens, I et al., 1987) through receptor-mediated endocytosis occur at the flagellar pocket of trypanosome (Gull, K., 2003).APOL-1 is a bacterial colicins and Bcl-2 family members like protein containing reduce forming domain as well as a region for the membrane insertion of it (Prez -Morga D et al., 2005, Pays E et al., 2006). APOL-1 is taken up in the parasite by endocytosis, able to kill by the parasite by forming anion selective pores in the lysosomal membrane of parasite, this pore allows the inflow of chloride ions into the lysosome, subsequent cell death as a consequence of entry of water and induces uncontrolled osmotic swelling of vacuole ((Prez-Morga D et al., 2005 Pays E et al., 2006 B. Vanhollebeke et al., 2007a). APOL-1 could not be involved in apoptosis but in programmed cell death (B. Vanhollebeke et al., 2006a).Resistance of T.brucei rhodesiense and T.brucei gambiense to APOL-1 is developed which allows these parasi tes to infect and cause HAT. Single protein termed serum resistance-associated protein (SRA) is main reason of resistance of T.brucei rhodesiense to APOL-1.SRAP interacts strongly with APOL-1 and provide specific resistance to T.brucei rhodesiense (Xong HV et al., 1998 Gibson WC, 2005). T brucei gambiense is also resistant to APOL-1 mechanism is not understood (Pays E et al., 2006). Indian case with T. evansi infection, human serum devoid of APOL-1, reason for the absence was due to independent frameshift mutation in both APOL-1 alleles (B. Vanhollebeke et al., 2006b).Another HDL component, plays a toxic role for full trypanolytic activity of normal human serum, haptoglobin-related protein (Hpr).Indian case has normal concentration of Hpr bound HDL but short of trypanolytic activity. Hpr is a haemoglobin (Hb) binding protein induces, within caustic lysosome of T.b.brucei, Fenton like reaction between H202 and iron that lead to formation of free hydroxyl radicals, which would prompt the reaction of lipid peroxidation of lysosomal membrane (Smith AB et al., 1995 Hager KM et al., 1994 Bishop JR et al., 2001 Justin Widener et al., 2007). Nevertheless action of trypanolysis of Hpr and APOL-1, biological function is not clear. optimal trypanolytic activity requires presence of both APOL-1 and Hpr on same subset of HDL particle (B. Vanhollebeke et al., 2007b).Vanhollebeke et al. (2007b) reported trypanosome survival assay in normal as well as mutant human sera. Survival of trypanosomes occurs in human serum devoid of APOL-1 and fetal calf serum (FCS). FCS is nonlytic and contains neither APOL-1 nor Hpr. Human serum deficient of Hpr and haptoglobin (Hp) but with normal HDL bDisease Caused by Parasite of Genus TrypanosomaDisease Caused by Parasite of Genus TrypanosomaHuman trypanosomiasis caused by Trypanosoma evansi and Trypanosoma lewisi in India A matter of concernIntroductionDisease produced by the parasite of genus Trypanosoma called as trypanosomiasis. It is o ne of the most important hemoprotozoan diseases, widely distributed in animals and human beings. It is endemic in Africa and America, are deadly pathogens that threaten millions of people in at least 36 countries in Africa. It is estimated that approximately 60 million people are at risk and 3, 00,000 new cases found every year in Africa (WHO Report 1998). Both African and American trypanosomes rank within the top 10 in terms of global impact. Despite the impact of these parasites, how they cause disease is relatively less is understood. In Africa, the disease is commonly known as human African trypanosomiasis (HAT) or sleeping sickness whereas the American trypanosomiasis recognized as Chagas disease. They not only infect vertebrates groups (amphibians, reptiles, birds, fish, and mammals) but also many invertebrates (Crithidia, Leptomonas). Human African trypanosomiasis belongs to genus Trypanosoma, subgenus trypanozoon. Classification phylum sacromastigophora, order kinetoplastid a and the family trypanosomatidae. Genus Trypanosoma includes subgenus which is divided into major group, salivaria and stercoraria that infect vertebrates (Hoare C. A.1964). Trypanozoon (T. brucei ssp, T. evansi, T. equiperdum), Duttonella (T. vivax,T. uniforme), Nannomonas (T. congolense, T. simiae), Pycnomonas (T. suis), Tejeraia (T. rangeli) belongs to salivaria group. Under stercoraria group Herpetosoma (T. lewisi, T. musculi,T. microti), Megatrypanum (T. theileri, T. melophagium), Schizotryponum (T. cruzi, T. dionisii) come. T. brucei. brucei, T. brucei. gambiense and T. brucei. rhodesiense are the subspecies of the Trypanozoon. Sleeping sickness is caused by T. brucei. gambiense, a chronic form of HAT in West and Central Africa lasting from months to years or T. brucei. rhodesiense, an acute form of HAT in East and Southern African with a duration of weeks to months. Whereas, closely related parasite T. brucei. brucei is non pathogenic to humans. The American trypanosomiasis is caused by T. cruzi. rhodesiense. These forms of the disease is deadly and develop within weeks to months, the gambiense form takes year.Trypanosomes cause animal trypanosomiasis has a wide geographic distribution. Surra is caused by T. evansi and infects mainly camels, cattle, buffalos, horses, deer and other wild animals. T. b. Brucei causes nagana in tropical Africa and affects only cattle T. vivax and T. congolense infect domestic and small animals while T.lewisi is a commensally of rats. T. equiperdum causes dourine disease in horse and donkey of India, Europe, America and North Africa. African trypanosomes are transmitted by tsetse flies, a species of Glossina, and South American trypanosomes by reduvid bugs.Normally human are resistant to animal species of Trypanosoma due to the trypanolytic factor of human serum. However, there are several cases of human infection with animal trypanosomes such as Trypanosoma evansi Trypanosoma lewisi and Trypanosoma congolense have been di scussed later in this article. This proves not just a rare cases but the beginning of new era in the history of human trypanosomes, put in dilemma whether they develop potential of new diseases of humans or just a biological accidently transmission.In Asia, first documented evidence found in 1933, human trypanosomiasis in Malaysia, a four month old infant infected with T. lewisi (Johnson P. D, 1933). Later in 1974 K. Shrivastava and colleague reported T. lewisi-like Herpetosoma infection, diagnosed in two adult patients in India during malaria eradication program. All three human Herpetosoma infected patients were recovered without treatment. More recently the cases of a two-month-old infant in the Gambia (Howie, S. et al., 2006) and India (Kaur, R. et al., 2007) infected with T. lewisi-like trypanosome is reported but Gambian case has invasion of central nervous system. One more case in Thailand is reported Trypanosoma lewisi-like infected 45-day-old male infant was recovered with the treatment of antibiotic gentamicin (Sarataphan, N. et al., 2007). Suspected case, 40 aged female in State of west Bengal of India, infected with trypanosomiasis in January 2005 however T. evansi was concluded by considering only the fact, species isolated from these area is T. evansi in cattle, buffaloes, and goats (see Ref. Meeting of the Ad Hoc Group of the World Organization for Animal Health (OIE), Paris 2006).Animal trypanosomiasis Trypanosoma evansi caused to human in India, state of Maharashtra.The patient was 45 year old man and veterinary quack from Seoni village in Taluka Shindevahi of District Chandrapur from Maharashtra State. He was admitted to rural hospital initially symptoms observed were headache, intermittent fever, disoriented, sensory scarcity, saliva dribble from mouth and violent behaviour. Blood thick smear, stained by Fields stain, examination was done by local microbiologist Mrs. Bharti U Sable she suspects trypanosome along with plasmodium falciparum (f igure 01). He was treated with antimalarial drug along with oral hematenics. She marked as the founder of Indian trypanosome, T. evansi. Later patient was transferred to the Government Medical College and Hospital (GMC) in Nagpur, India. Stained blood smear shows numerous flagellated trypanosomes parasite only, was confirmed morphologically, position of nucleus and small kinetoplast at central and posterior respectively indicate that the contributory mediator was T. evansi (Joshi, PP. et al., 2005). Another unique character of T. evansi has homogenous DNA minicircles (Borst et al., 1987 Songa et al., 1990 Masiga and Gibson, 1990 Lun et al., 1992) and absence of DNA maxicircles in the kinetoplast unlike T. brucei (Borst et al., 1987 Songa et al., 1990). Several methods has been evolvedmicroscopy, card agglutination test (C. Gutierrez et. al., 2000), microhematocrit centrifugation technique (Woo, PTK 1970), enzyme-linked immunosorbent assay (Indrakamhang, P et al.1996), DNA hybridizat ion (Viseshakul, N., Panyim, S., 1990) and polymerase chain reaction (Wuyts, N.et.al. 1994 Wuyts, N.et al.1995 Omawa, S et al 1999) for detection of T. evansi infection. To confirm morphological identification of parasite, additional test of blood, serum and cerebrospinal fluid (CSF) was done in the Department of Microbiology, Government Medical College and Hospital, Nagpur and at the Institut de Recherche pour le Dveloppement in Montpellier, France.Parasitological and serological tests conducted at GMC, Nagpur, are as followed (Joshi, PP. et al., 2005)Biochemical quantitative analysis of serum was performed with less tiny significance on lipid levels, indication of Tangier disease. Tangier disease is a rare autosomal recessive genetic disorder, high density lipoprotein deficiencies associated with this disease include dramatically lowered level of APO A1 (Von Eckardstein, A., et al., 1998), was found to be non trypanolytic (Rifkin, M R. 1978a), however controversial data, fresh ser a of a patient with Tangier disease is trypanolytic exhibiting bothTLF-1 and TLF-2 activity, reported (Tomlinson et al., 1995).The demonstration of specific antibodies has been employed by using card agglutination test for trypanosomiasis (CATT) for T. evansi using whole blood and serum was conducted. CATT test initially developed for T. brucei. gambiense (Diall et al., 1994). Sensitivity of CATT for T. evansi in Kenya was 65.5% (Z.K. Njiru et al.2004) and 68.6% (Ngaira et al.2003).False positive result of CATT was reported (Stijn Deborggraeve et al.2008).Mini-anion centrifugation technique is used for purification and concentration of trypanosomes using heparinised blood before and after treatment of suraminA direct latex IgM agglutination test was conducted with CSF to reveal functionless of parasite in the blood brain barrier.Sediment of CSF after centrifugation was examined by bright field microscopy for the presence of trypanosomes. Thomas chamber is used to count lymphocytes i n the CSF, presence demonstrate the incursion of parasite.Molecular technique and serological tests conducted at the Institut de Recherche pour le Dveloppement in Montpellier, France, are as followed (Joshi, PP. et al., 2005).Three independent PCR assay were performed using DNA of trypanosomeRelated to the subgenus Trypanozoon using a seminested PCR method, primer used ITS1/2 based on internal transcribed spacer (ITS) of ribosomal DNA.Related to T.brucei group using a single PCR of the 177- basepair.Amplification of T. evansi was conducted using a 994- basepair mitochondrial kinetoplast minicircle template with the primer TEV 1/2.Reference strains used are T. b.gambiense Bat 6118 and T. evansi CIRDES.PCR provided high specificity and sensitivity molecular biology technique among others for diagnosis of infectious diseases and also permits identification of micro organisms such as mycobacterium (Garcia-Quintanilla, A et al., 2002) , detection and differentiation of Entamoeba histolyt ica and Entamoeba dispar (Gonin, P et. al.,2003), simultaneous detection of tick-borne hemoprotozoan parasites Babesia caballi and Babesia equi in horse blood (Alhassan, A. et. al., 2005) and detection of influenza A Virus (Nicole L. Z et. al, 2006). In spite of these, PCR are not usual in some countries (Holland et al., 2001). It has been reported about reproducibility problems, for diagnosis of both human and animal trypanosomes, of PCR results (Solano et al., 2002 Malele et al., 2003). Recently a new DNA amplification method, loop-mediated isothermal amplification developed for diagnosis of species and sub-species specific trypanosomes (Thekisoe OM et al., 2007).Disease developed due to absence of trypanolytic factor in normal human serum hence immune status of patient was checked to resolve possible infection with human immunodeficiency virus (HIV).Three tests were conducted to corroborate the results of Enzyme-linked immunosorbent assay (ELISA) in India.HIV 1/2 assaySpecific en zyme-linked immunosorbent assay (ELISA)NNO-LIA HIV 1/2 Score testInvestigation of parasiteUnusual transmission of animal trypanosomiasis, T. evansi to human requires rationalization, for this P. Truc and collaborator, 2007 studied genetic characterization of T. evansi. Generally, genetic variability of T. evansi has been detected by using isoenzyme (Gibson et al., 1983 Stevens et al., 1989), restriction fragment length polymorphism (RFLP) (Songa et al., 1990), microsatellite (Biteau et al., 2000) and random amplified polymorphic DNA (RAPD) analysis (Lun et al., 2004 Ventura et al., 2002) all these above technique found isolated T. evansi were genetically homogenous. Micro heterogeneity reported (Gibson et al., 1983 Stevens et al., 1989), may due to low-resolution techniques and no genetic exchange of T. evansi in vector like others T. brucei ssp, that leads to absence of recombination which play role for micro heterogeneity (Jenni et al.1986). Nevertheless, some genetic variability of isolated T. evansi from Kenya reported through PCR (Ngaira et al.2004, 2005 Njiru et al.2006) and amplified fragment length polymorphism (AFLP) along with RAPD. Among later, AFLP admittance more polymorphisms, was able to differentiate and separate the Type A T. evansi into two clades (Masiga et al., 2006). Direct comparison of high-resolution molecular techniques microsatellites or simple sequence repeats (SSR) and Inter-simple sequence repeats (ISSR) PCR revealed that latter technique demonstrate greater genetic variability of T evansi isolates from different geographical area (Z.K. Njiru et al 2007). Recently molecular analysis of T. b. brucei by PCR and microsatellite PCR of reported blood slides was successfully conducted (Stijn Deborggraeve et al.2008). Isolated T. evansi has been termed into type A and type B (Masiga and Gibson, 1990). Unlike to type B detected only from Kenya, isolates type A are most copious (Borst et al., 1987). It has been shown however, that most of T . evansi from South America are dyskinetoplastic- lacking both maxicircles and minicircles (Masiga and Gibson, 1990 Ventura et al., 2000 Schnaufer et al., 2002).Normally T. evansi diagnosed through variant surface glycoprotein (VSG) Rode Trypanozoon antigen type (RoTat) 1.2, a diagnostic antigen. Songa and Hamers, 1988 developed CATT for veterinary use, which based on RoTat 1.2 gene (Songa and Hamers, 1988). Both PCR test and serological-CATT test are highly sensitive and specific in divergent geographical region (Verloo et al., 2000), former test can be trustworthy for detection of isolates of both dyskinetoplastic and DNA minicircles in kinetoplast of T. evansi (Claes et al., 2004) also it based on RoTat 1.2 gene (Urakawa et al., 2001). On the other hand, most of T. evansi from Kenya were not detected by test, which based on VSG of T. evansi RoTat 1.2 gene because few isolates lack both RoTat 1.2 gene and their linked protein-VSG while other isolates having only RoTat 1.2 gene (N gaira et al. 2004). Characterization of non-RoTat 1.2 T. evansi, specific PCR test developed in these 273 base pair was present in disparity to RoTat 1.2 T. evansi (J.M. Ngaira et al., 2005).Microscopic examination of dissected organs of tsetse flies was done for identification of trypanosome infections (Lloyd and Johnson, 1924). Parasites are, generally indentified in the mouthparts, salivary glands and mid-guts. Trypanosome species from vector is isolated and employed in isoenzyme electrophoresis technique for identifications (Gashumba et al., 1986). Another approach as recombinant DNA probes have been used for the identification both mature and immature trypanosomes in tsetse fly (Gibson et al., 1988 Majiwa et al., 1993).Dot-ELISA is another technique used for detecting trypanosomes in tsetse flies (Bosompem et al., 1996 Ouma, J. O et al., 2000)How T. evansi differs from other TrypanozoonThe subgenus Trypanozoon includes three species, namely Trypanosoma brucei, T. evansi and T. equiperdum. T. evansi is judge against, concerning their morphological, mode of transmission, biochemical and molecular characteristics, rest of species. Bloodstream stages of these three parasites are often morphologically indistinguishable (Brun R et al., 1998 Gibson, 2003). T. evansi is mechanically transmitted of infected blood through insects of the genera Tabanus, Stomoxys, Atylotus and Lyperosia. Horseflies (Tabanus spp), Stableflies (Stomoxys spp) are the most capable vectors for the transmission of T. evansi in Indonesia and China (Luckins, 1988 Lun et al., 1993). In Africa, south and Central America, tsetse fly (Glossina spp) and vampire bats Desmodus rotundus an extra host-vector-reservoir of the T. evansi, respectively can mechanically transmitted this parasite. Direct transmissions through milk or during coitus involved T. evansi (Wang, 1988). Besides mechanical and direct transmission of T. evansi, T. equiperdum transmitted directly during coitus and with rare possibil ity through bloodsucking insects (see ref. Brun, R et al.,1998). Trypanosoma brucei gambiense, sleeping sickness parasites have been able to spread through tsetse flies of palpalis group (Glossina palpalis, Glossina tachinoides) while T. b. rhodesiense was generally transmitted by tsetse of the morsitans group (Glossina morsitans, Glossina pallidipes). All 31 species of tsetse flies are able to transmit trypanosomes (Aksoy S, et al., 2003). Other major parasites T. congolense, T. vivax and T. simiae that are pathogens of domesticated animals, transmitted by tsetse fly.Both parasites, T. evansi and T. equiperdum are closely related to T. brucei, most likely developed from Trypanosoma brucei by independently deletion of kinetoplast DNA and should be regarded as two subspecies Trypanosoma brucei evansi and Trypanosoma brucei equiperdum respectively (Lai et al., 2008). Absence of maxicircles in kinetoplast DNA explained inexistence of procyclic or insect stage in these parasites and can propagate only as the mammal-infective bloodstream form (Borst et al., 1987).This facilitate to explain wide range of mechanical transmission of T. evansi outside of Africa (Lun and Desser, 1995). Procyclic form (PCF) T.brucei strain cannot survival with a partial or complete loss of kinetoplast DNA as with some Blood stream form (BSF) strains. This kinetoplast DNA deficient T.brucei strains appear naturally or induced by drugs (Schnaufer A et al.2002). Drug inducers are acriflavine, ethidium bromide, methoxy-9-ellipticine, hydroxystilbamidine, berenil, pentamidine, antrycide, and para-rosaniline, grouped as DNA intercalators and non intercalating drugs (Hajduk, 1978).Nevertheless, the existence of T. equiperdum has been complexity Claes et al. suggested that, in fact, some strains of Trypanosoma equiperdum are actually Trypanosoma brucei and all other remaining misidentified strains such as Swiss Tropical Institute Basel (STIB) 818 are Trypanosoma evansi. However, based on PCR amp lification of the fragment of DNA maxicircles in the kinetoplast, T. equiperdum Onderstepoort Veterinary Institute (OVI) and Bordeaux Trypanosoma antigen type (BoTat) 1.1 strains are T. brucei and other STIB 818, STIB 841 and STIB 842 T. equiperdum strains are not cluster together with T. evansi as it maintains maxicircles and allied genes. (Li et al., 2006).Both parasites have homogeneous minicircles. Although in all T. evansi strains maxicircles are totally lost but T. equiperdum shows more assortment, some strains seems to bear complete maxicircles with no active essential gene others are missing one of the genes and a few devoid the entire maxicircles (Lai et al., 2008).Unlike other DNA, T. brucei mitochondrial DNA termed kinetoplast DNA include a network of interlocked DNA rings (Liu, B. et al. 2005). This network of T. brucei ssp. comprised of several thousands of heterogeneous minicircles and several dozen of homogeneous maxicircles (Borst and Hoeijmakers, 1979). T. evansi ha s largely homogenous and limited heterogeneous minicircles in kinetoplast DNA (Borst et al., 1987).Results (Joshi, PP. et al., 2005 P. Truc et al., 2007)A careful examination of morphological characteristic demonstrates the presence of T. evansi. Patient had normal level of APO A-1 indicate no sign of Tangier disease. The result of CATT for T. evansi was positive suspect stalwartly presence of RoTat 1.2 gene. Latex IgM test, a diagnostic for trypanosome invasion in CSF, and lymphocytes count in the CSF indicated no invasion of parasite. An attempt to isolate and propagate trypanosome in wistar rat was failed. For molecular diagnosis of T. evansi PCR conducted, test was positive. Results of ELISAs for HIV, conducted in France and India were negative.Genetic characterization, Indian patient has homogenous DNA minicircles in kinetoplast of T. evansi of type A and devoid of SRA gene.TreatmentTreatment was started 109 days after initial admission to hospital using suramin. Suramin is man ufactured by Bayer and donated to WHO as Germanin, used against sleeping sickness in 1922 (Voogd et al., 1993). Suramin was used as a first stage of treatment for HAT caused by Trypanosoma brucei gambiense (chronic form) or T. b. rhodesiense (acute form). Efficacy of suramin against T. evansi infection was studied in cattle by Gill BS, Malhotra MN, 1963. It was requested and provided by Department of Public Health, Government of Maharashtra State, India and World Health Organisation respectively. As patient falls under first stage of infection, drugs have to be used pentamidine or suramin sodium. Pentamidine has more adverse effect than suramin, according to author hence suramin was used in this patient. Drug suramin acts by interfering with enzyme of glycolytic pathway (Wierenga RK, et.al., 1987) in trypanosomes and produce hot spot, function as a signal for import into glycosome. It is preferred to give slow intravenous injection as suramin is poorly absorbed from intestine and ca uses intense local irritation when given intramuscularly (Voogd TE, et.al., 1993). Suramin does not cross the blood-brain barrier to kill trypanosome in the CSF however able to cure model of stage 2 diseases at a high dose greater than 80 mg per kg (Jennings FW, et.al., 1995).Follow-up study was commenced after the end of treatment and at 3rd and 6th months, all previous tests-CATT for T. evansi, latex IgM agglutination test, Mini anion-exchange centrifugation technique and examination of CSF by bright field microscopy are repeated at GMC Nagpur excepts biochemical analysis of serum for Tangier disease (P. P. Joshi et al. 2006). Tests result indicates first patient of human trypanosomiasis infected with T. evansi was recovered, Joshi and collaborators concluded that same schedule would follow in treatment if more cases observed.SuraminSuramin is less active against procyclic form of trypanosomes than bloodstream form, former normally reside in the tsetse flies (Scott AG, et.al., 199 6). Suramin inhibit number of glycolytic enzyme which is essential to bloodstream form rather than procyclic form (Fairlamb AH, et.al., 1977, Fairlamb AH, et.al., 1980). Hanau and colleagues proposed other likely target of drug, competitive inhibitor of an enzyme 6-phosphogluconate dehydrogenase of pentose phosphate pathway (Hanau S, et.al., 1996). Suramin is an effective microfilaricide for Onchocerca spp. and Brugia pahangi worms (Hawking, et al., 1981 Howells, et al., 1983). It is a known ATP/UTP purine receptor (P2 receptor) antagonist (V. Ralevic and G. Burnstock, 1998). Nevertheless suramin inhibit ample varieties of enzymes like reverse transcriptase, dihydrofolate reductase, furamse, glycerol-3-phosphate dehydrogenase, hexokinase, L-a-glycerophosphate oxidase, receptor mediated uptake of low density lipoprotein, RNA polymerase and kinases, thymidine kinase, trypsin (Pepin and Milord, 1994 Wang, 1995). Besides its trypanocidal activity, suramin is also useful in hormone-refra ctory prostate cancer, however survival rate was not affected (Small et al., 2000 Ahles et al., 2004). Suramins antitumor activity has been attributed to its inhibition of various growth factors which include platelet-derived growth factor, fibroblast growth factor, transforming growth factors alpha and beta, insulin- like growth factors 1(Stein CA,1993). Osteosarcoma is the malignant tumor of the bone suramin exerts an inhibitory effect on osteosarcoma cell growth of established cell lines (Benini et al., 1999), newly established osteosarcoma cell lines and stimulation of osteosarcoma cells by physiological compounds, such as 1, 25-dihydroxy-Vitamin D3 (K. Trieb, H. Blahovec, 2002). Furthermore, results in an inhibiting capacity of suramin on various cell functions include production of alkaline-phosphatase or telomerase activity (K. Trieb, H. Blahovec, 2002). Suramin blocked CD154 (Emilio Margolles-Clark et al., 2009) from interacting with its receptor CD40 (U. Schnbeck and P. Lib by, 2001 I.S. Grewal and R.A. Flavell, 1998), costimulatory interactions are therapeutically important to modulate immune responses (C.P. Larsen et al., 2006 F. Vincenti and M. Luggen, 2007). Suramin inhibited the binding of TNF-a to its receptor TNF-R1 (F. Mancini et al., 1999) and its ability to inhibit CD40-CD154 interaction was 30 fold more active compared to it (Emilio Margolles-Clark et al., 2009). Suramin has also been shown to suppress T cell activity (C. Schiller et al., 1994), antiproliferative effects on lymphoid cells (Z. Spigelman et al., 1987). Suramin can causes toxicities which include adrenal and renal insufficiency, coagulation factor abnormalities and poly-neuropathy (T.E. Voogd et al., 1993 D.J. Cole et al., 1994), at relatively high concentration inhibited the binding of IL2 to its cell surface receptor (G.B. Mills et al.,1990), greater than therapeutic use (S.A. Grossman et al., 2001 S.T. Eichhorst et al., 2004). It concentration-dependently inhibited proteolyt ic and phospholipase A2 (PLA2) activities of Bothrops jararacussu venom- potential to be used as antivenom, suramin also antagonise the cardiotoxic effect of Bothrops jararacussu venom in rats heart (Daniel N. Sifuentes et al., 2008).Uptake of suramin by bloodstream form of trypanosome is through receptor mediated endocytosis which is most likely route of entry (Fairlamb AH, et al., 1980). Suramin intensively bound to plasma proteins such as low density lipoproteins, albumins, globulins, fibrinogen, etc. According to Bastin et al. 1996, Coppens and Courtoy 2000 and Green et.al 2003 suggested that suramin might enter while bound to low density lipoprotein (LDL), it has high affinity to bind many serum proteins including LDL (Vansterkenburg ELM, et al., 1993). The high rate of fluid-phase endocytosis occurs in the trypanosomes of bloodstream form (Engstler, et al., 2004). This mechanism could be involved in the uptake of suramin into T. brucei that does not require specialized recepto rs. Trypanosomes cannot synthesise their own fatty acid and cholesterol de novo hence LDL uptake is essential for propagation (Coppens I, et al., 2000). It does not make any worse however in procyclic form, uptake of suramin is through receptor mediated endocytosis and not coupled with LDL uptake (Pal A, et al., 2002). Suramin involves inhibition of various glycolytic enzymes, effects rates of respiration as aerobic glycolysis is closely related with it in bloodstream forms (Fairlamb AH, et al., 1980, Opperdoes, F.R. et al., 1989). Diminished growth rate of trypanosome in vivo is a consequence of decrease in respiration (Fairlamb AH, et al., 1980).Suramin is also used as veterinary trypanocide report on resistance in T. evansi that infects animals is reported (El Rayah et al., 1999, Zhou, J.L. et al., 2004). Some cases have been described of drug resistance when suramin is used against Trypanosoma brucei rhodesiense in humans (Wery, M., 1994). Suramin reduced sensitivity towards T. b. rhodesiense (Bacchi et al., 1990) and failure of treatment up to 25-30% observed (Pepin and Milord, 1994, Burri, C et al., 2004). Failures of treatment are common due to misdiagnosed late stage infection (Burri et al., 2004). De Koning argued one of the reasons of suramin resistance is associated with reduction in drug uptake molecule is large and highly charged which plasma membrane transporter takes up.Role of apolipoprotein L-1 and haptoglobin-related proteinT. evansi affects mainly domesticated animals such as camels, cattle and water buffalo, spread by mechanical transmission of infected blood through insect such as tabanid flies. Due to these, it spread apart from sub-Saharan Africa to South America, North America and Asia. Normally humans are resistant to animal trypanosomes, immunity against T.brucei brucei is due to trypanolytic activity of an apolipoprotein L-1 (APOL-1) bound to high density lipoprotein (HDL) (Vanhamme L. et al., 2003).Previously it was concluded that t rypanolytic activity in normal human serum was due to immunoglobin M (Aaronovitch, S. Terry, R. J. 1972). Later in 1973, Hawking and colleagues resolute there were two trypanolyic factors. These two factors differ in their activity (in vivo and vitro), molecular mass, quantity in serum and sensitivity to antagonists (Hawking et al., 1973b). HDL was identified as trypanolyic factor by Rifkin in 1978, she also characterised the two trypanolyic factors determined by Hawking (Rifkin, M. R. 1978b). Trypanolyic factors in human serum shows inhomogeneous properties (Tomlinson et al., 1995 Raper et al., 1996b). Both TLF are a subset of HDLs commonly referred to as HDL3 (Lorenz et al., 1995), contain haptoglobin-related protein (Hpr) (Smith et al., 1995) and APOL-1 (Vanhamme, L. et al., 2003).TLF-1 is a 500 kDa lipid rich while TLF-2,1000 kDa protein complex containing IgM, lipid poor HDL particle (Raper, J. et al., 1999 Lugli, E.B. et al., 2004). Apolipoprotein A-1 (APOA-1) is a component of TLF-1(Smith et al., 1995) and, although previously reported that APOA-1 could not detected in TLF-2(Tomlinson, S. et al., 1995), is a component of TLF-2 (Raper, J. et al., 1999). Previously unknown proteins, human cathelicidin antimicrobial peptide (hCAP18), glycosylphosphatidylinositol-specific phospholipase D (GPI-PLD) and paraoxonase are associated with TLF-1(Smith AB et al., 1995 Lugil E et al., 2004). APOA-1 suggests a role in trypanolysis later controversial report supporting a lytic role (Gillett, M. Owen, J. 1992a) or not favor lytic role (Rifkin, 1991 Seed et al., 1993). Later it was confirmed that APOA-1 was not toxic (Tytler, 1995) but may indirectly play role of trypanolytic (Owen et al., 1996).For trypanosomes, HDLs contain 16,000-65,000 binding site per cell having moderate affinity (Gillett, M. Owen, J. 1992b). However, binding of lytic factor, TLF-1 appeared to involve two binding site, low affinity have 65,000 and high affinity 350 binding sites (Drain et al., 2001). Host macromolecules, interact with bloodstream trypanosomes, transferrin (Borst, P.1991) and low-density lipoprotein (LDL) (Coppens, I et al., 1987) through receptor-mediated endocytosis occur at the flagellar pocket of trypanosome (Gull, K., 2003).APOL-1 is a bacterial colicins and Bcl-2 family members like protein containing pore forming domain as well as a region for the membrane insertion of it (Prez -Morga D et al., 2005, Pays E et al., 2006). APOL-1 is taken up in the parasite by endocytosis, able to kill by the parasite by forming anion selective pores in the lysosomal membrane of parasite, this pore allows the influx of chloride ions into the lysosome, subsequent cell death as a consequence of entry of water and induces uncontrolled osmotic swelling of vacuole ((Prez-Morga D et al., 2005 Pays E et al., 2006 B. Vanhollebeke et al., 2007a). APOL-1 could not be involved in apoptosis but in programmed cell death (B. Vanhollebeke et al., 2006a).Resistance of T.brucei rhode siense and T.brucei gambiense to APOL-1 is developed which allows these parasites to infect and cause HAT. Single protein termed serum resistance-associated protein (SRA) is main reason of resistance of T.brucei rhodesiense to APOL-1.SRAP interacts strongly with APOL-1 and provide specific resistance to T.brucei rhodesiense (Xong HV et al., 1998 Gibson WC, 2005). T brucei gambiense is also resistant to APOL-1 mechanism is not understood (Pays E et al., 2006). Indian case with T. evansi infection, human serum devoid of APOL-1, reason for the absence was due to independent frameshift mutation in both APOL-1 alleles (B. Vanhollebeke et al., 2006b).Another HDL component, plays a toxic role for full trypanolytic activity of normal human serum, haptoglobin-related protein (Hpr).Indian case has normal concentration of Hpr bound HDL but short of trypanolytic activity. Hpr is a haemoglobin (Hb) binding protein induces, within acidic lysosome of T.b.brucei, Fenton like reaction between H202 a nd iron that lead to formation of free hydroxyl radicals, which would prompt the reaction of lipid peroxidation of lysosomal membrane (Smith AB et al., 1995 Hager KM et al., 1994 Bishop JR et al., 2001 Justin Widener et al., 2007). Nevertheless action of trypanolysis of Hpr and APOL-1, biological function is not clear. Optimal trypanolytic activity requires presence of both APOL-1 and Hpr on same subset of HDL particle (B. Vanhollebeke et al., 2007b).Vanhollebeke et al. (2007b) reported trypanosome survival assay in normal as well as mutant human sera. Survival of trypanosomes occurs in human serum devoid of APOL-1 and fetal calf serum (FCS). FCS is nonlytic and contains neither APOL-1 nor Hpr. Human serum deficient of Hpr and haptoglobin (Hp) but with normal HDL b
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment